A punching device for stainless steel track shoe processing
By introducing structures such as guide ramps and air jet pipes into the stainless steel track plate processing device, the problems of chip accumulation and unstable steel plate fixation were solved, achieving higher processing accuracy and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TAIAN LUYANG METAL PROD CO LTD
- Filing Date
- 2025-05-23
- Publication Date
- 2026-06-30
AI Technical Summary
Existing punching machines used in the processing of stainless steel track plates suffer from problems such as chip accumulation and unstable steel plate fixation, which affect processing accuracy and safety.
A punching device was designed, comprising a guide slope, a discharge trough, a collection box, an air jet pipe, and a drive cylinder. The guide slope automatically collects debris, the air jet pipe blows away residual debris, and anti-slip pads are installed on the clamping plate to improve the stability of the device.
It effectively reduces debris accumulation, improves the cleanliness of the fixed part surface, ensures stable placement of steel plates, and enhances processing accuracy and safety.
Smart Images

Figure CN224423967U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of track plate processing technology, and in particular to a punching device for processing stainless steel track plates. Background Technology
[0002] Punching is a key process in the processing of stainless steel track plates. Punching is typically done using a punching machine, but existing punching machines still have certain shortcomings in practical use:
[0003] The punching process generates a large amount of debris, which easily falls onto the fixture. If too much debris accumulates, it may affect the placement of the track steel plate to be punched later, making it impossible to position it correctly and affecting the accuracy and quality of the punching. On the other hand, the existing punching devices have a relatively simple method of fixing the track steel plate, usually relying on a simple clamping structure. It is difficult to ensure the stability of the steel plate during the clamping process. Under the impact of punching, the steel plate is prone to displacement or even falling off, which not only affects the processing efficiency but may also cause safety hazards. Utility Model Content
[0004] The purpose of this utility model is to solve the problems mentioned in the background art and to provide a punching device for processing stainless steel track plates.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A punching device for processing stainless steel track plates includes a machine body connected to a support, a punching head connected to the machine body, and further includes:
[0007] The fixing part is fixedly connected to the bracket;
[0008] The drive rod is slidably connected to the fixed part;
[0009] The clamp is fixedly connected to the drive rod;
[0010] The guide ramp is located on the fixed part;
[0011] A material discharge trough is provided on the fixed part;
[0012] A collection box is attached to the bracket and is located below the discharge trough.
[0013] Preferably, the fixing part has a cavity, and an air jet pipe and an air delivery pipe are fixedly connected to the fixing part. The air jet pipe and the air delivery pipe are both connected to the cavity, and the air outlet end of the air jet pipe faces the guide slope.
[0014] Furthermore, a drive cylinder is fixedly connected to the fixing part, and the end of the air supply pipe away from the cavity is connected to the drive cylinder, and a sliding plug is slidably connected in the drive cylinder.
[0015] Furthermore, a connecting rod is fixedly connected to the clamp plate, and the end of the connecting rod away from the clamp plate is fixedly connected to the sliding plug.
[0016] Furthermore, a spring is fixedly connected to the slide, and the end of the spring away from the slide is fixedly connected to the inner wall of the drive cylinder.
[0017] Furthermore, an air supply pipe is fixedly connected to the drive cylinder, and a one-way valve is fixedly connected to both the air supply pipe and the air delivery pipe.
[0018] Preferably, an anti-slip pad is fixedly connected to the clamp.
[0019] Compared with the prior art, the present invention provides a punching device for processing stainless steel track plates, which has the following advantages:
[0020] The parts of this device not described herein are the same as or can be implemented using existing technologies. This utility model, by setting a guide slope on the fixed part, can effectively make the debris falling on the fixed part automatically roll off, reducing the possibility of debris falling and accumulating on the fixed part, thus solving the problem that excessive debris accumulation may prevent the steel plate from being placed on the fixed part. At the same time, by using the drive cylinder and air jet pipe set on the fixed part in combination, the guide slope can be further blown, further reducing the debris material remaining on the guide slope, further improving the cleanliness of the surface of the fixed part, and facilitating the subsequent placement of the steel plate. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of a punching device for processing stainless steel track plates proposed in this utility model;
[0022] Figure 2 This is a cross-sectional view of a punching device for processing stainless steel track plates proposed in this utility model;
[0023] Figure 3 This is a schematic diagram of the fixing part in a punching device for processing stainless steel track plates proposed in this utility model;
[0024] Figure 4 This utility model proposes a punching device for processing stainless steel track plates. Figure 2 Enlarged view of part A in the image.
[0025] In the diagram: 1. Support; 101. Collection box; 102. Machine body; 1021. Punching head; 2. Fixing part; 201. Material leakage trough; 202. Material guide slope; 203. Cavity; 2031. Air jet pipe; 3. Drive part; 301. Drive rod; 3011. Clamping plate; 3012. Anti-slip pad; 4. Drive cylinder; 401. Air supply pipe; 402. Air delivery pipe; 403. Sliding plug; 4031. Connecting rod; 404. One-way valve; 405. Spring. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0027] Example 1:
[0028] Reference Figures 1-4 A punching device for processing stainless steel track plates includes a body 102 connected to a bracket 1, a punching head 1021 connected to the body 102, and further includes:
[0029] The fixing part 2 is fixedly connected to the bracket 1;
[0030] The drive rod 301 is slidably connected to the fixed part 2;
[0031] Clamping plate 3011 is fixedly connected to drive rod 301;
[0032] The guide slope 202 is located on the fixed part 2;
[0033] The material discharge trough 201 is provided on the fixing part 2;
[0034] The collection box 101 is connected to the bracket 1 and is located below the discharge trough 201.
[0035] Reference Figure 3 The guide slope 202 is a slope, and the discharge chute 201 is located at the lower end of the guide slope 202.
[0036] Reference Figure 2 , Figure 3 A drive unit 3 is fixedly connected to the fixed part 2, and the drive end of the drive unit 3 is fixedly connected to the drive rod 301.
[0037] It should be noted that the drive unit 3 is a commercially available electric linear actuator.
[0038] A cavity 203 is provided in the fixing part 2. An air jet pipe 2031 and an air delivery pipe 402 are fixedly connected to the fixing part 2. Both the air jet pipe 2031 and the air delivery pipe 402 are connected to the cavity 203. The air outlet end of the air jet pipe 2031 faces the guide slope 202.
[0039] Reference Figure 1 It should be noted that there are multiple sets of jet pipes 2031, and all sets of jet pipes 2031 are connected to the cavity 203.
[0040] A drive cylinder 4 is fixedly connected to the fixed part 2. The end of the air supply pipe 402 away from the cavity 203 is connected to the drive cylinder 4. A sliding plug 403 is slidably connected in the drive cylinder 4.
[0041] Reference Figure 4 The jet pipe 2031 is equipped with a commercially available pressure valve.
[0042] A connecting rod 4031 is fixedly connected to the clamping plate 3011, and the end of the connecting rod 4031 away from the clamping plate 3011 is fixedly connected to the slide plug 403.
[0043] Reference Figures 2-4 During the actual punching process, the worker holds the track steel plate to be punched on the fixed part 2 and pushes the drive rod 301 to move through the drive part 3, thereby pushing the clamping plates 3011 on both sides to move closer to each other. After the clamping plates 3011 on both sides have moved a certain distance, the two sets of clamping plates 3011 clamp the track steel plate. At this time, the punching head 1021 on the machine body 102 is started to punch the steel plate.
[0044] Reference Figure 3 During punching, the debris that falls off will fall onto the guide slope 202. Since the guide slope 202 is set as a slope, the debris that falls onto the guide slope 202 will roll along the slope and eventually fall into the collection box 101 through the leakage chute 201.
[0045] This device collects and cleans up the debris that falls onto the fixing part 2, reducing the possibility of debris accumulating on the fixing part 2, thereby solving the problem that excessive debris accumulation may prevent the steel plate from being placed on the fixing part 2.
[0046] Reference Figure 3 , Figure 4After punching is completed, the drive unit 3 pulls the clamping plate 3011 to reset. The reset of the clamping plate 3011 will drive the connecting rod 4031 to move synchronously. The movement of the connecting rod 4031 will push the slide plug 403 to reset synchronously. When the slide plug 403 resets, it will push out the gas extracted and retained in the drive cylinder 4. The pushed-out gas will be transported to the cavity 203 through the gas supply pipe 402. As the amount of gas transported to the cavity 203 increases, the air pressure in the cavity 203 will gradually increase. When the air pressure in the cavity 203 reaches the threshold set by the pressure valve, the gas in the cavity 203 will be ejected through the jet pipe 2031. The ejected gas will blow onto the guide slope 202, which can further blow away the residual material on the guide slope 202, further improving the overall cleanliness of the fixing part 2 and facilitating the subsequent placement of the steel plate.
[0047] A spring 405 is fixedly connected to the slide plug 403, and the end of the spring 405 away from the slide plug 403 is fixedly connected to the inner wall of the drive cylinder 4.
[0048] Reference Figure 4 The spring 405 provided on the slider 403 enables the slider 403 to be quickly reset.
[0049] An air supply pipe 401 is fixedly connected to the drive cylinder 4, and a one-way valve 404 is fixedly connected to both the air supply pipe 401 and the air delivery pipe 402.
[0050] Reference Figure 4 By using the one-way valve 404 installed on the gas supply pipe 401 and the gas delivery pipe 402, it can be ensured that the gas in the cavity 203 will not flow back when the sliding plug 403 slides back and forth.
[0051] An anti-slip pad 3012 is fixedly connected to the clamp 3011.
[0052] Reference Figure 1 , Figure 3 By using the anti-slip pads 3012 provided on the clamping plates 3011, the stability of the clamping plates 3011 can be improved and the possibility of the steel plates falling off can be reduced when the symmetrically arranged clamping plates 3011 clamp the track steel plates.
[0053] This invention, by setting a guide slope 202 on the fixing part 2, can effectively cause the debris falling on the fixing part 2 to automatically roll off, reducing the possibility of debris falling and accumulating on the fixing part 2. This solves the problem that excessive debris accumulation may prevent the steel plate from being placed on the fixing part 2. At the same time, by using the drive cylinder 4 and the jet pipe 2031 set on the fixing part 2 in conjunction, the guide slope 202 can be further blown, further reducing the debris material remaining on the guide slope 202, and further improving the cleanliness of the surface of the fixing part 2, which is convenient for the subsequent placement of the steel plate.
[0054] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A punching device for processing stainless steel track plates, comprising a body (102) connected to a bracket (1), wherein a punching head (1021) is connected to the body (102), characterized in that, Also includes: The fixing part (2) is fixedly connected to the bracket (1); The drive rod (301) is slidably connected to the fixed part (2); The clamp (3011) is fixedly connected to the drive rod (301); The guide slope (202) is provided on the fixed part (2); A material discharge trough (201) is provided on the fixing part (2); A collection box (101) is connected to a bracket (1) and the collection box (101) is located below the discharge trough (201).
2. The punching device for processing stainless steel track plates according to claim 1, characterized in that, A cavity (203) is provided in the fixing part (2). A jet pipe (2031) and an air delivery pipe (402) are fixedly connected to the fixing part (2). Both the jet pipe (2031) and the air delivery pipe (402) are connected to the cavity (203). The air outlet end of the jet pipe (2031) faces the guide slope (202).
3. The punching device for processing stainless steel track plates according to claim 2, characterized in that, A drive cylinder (4) is fixedly connected to the fixed part (2), and the end of the gas pipe (402) away from the cavity (203) is connected to the drive cylinder (4). A sliding plug (403) is slidably connected in the drive cylinder (4).
4. The punching device for processing stainless steel track plates according to claim 3, characterized in that, A connecting rod (4031) is fixedly connected to the clamping plate (3011), and the end of the connecting rod (4031) away from the clamping plate (3011) is fixedly connected to the slide plug (403).
5. The punching device for processing stainless steel track plates according to claim 3, characterized in that, A spring (405) is fixedly connected to the slide (403), and the end of the spring (405) away from the slide (403) is fixedly connected to the inner wall of the drive cylinder (4).
6. The punching device for processing stainless steel track plates according to claim 3, characterized in that, An air supply pipe (401) is fixedly connected to the drive cylinder (4), and a one-way valve (404) is fixedly connected to both the air supply pipe (401) and the air delivery pipe (402).
7. The punching device for processing stainless steel track plates according to claim 1, characterized in that, An anti-slip pad (3012) is fixedly connected to the clamp (3011).